2 * Int67 (EMS) emulation
4 * Copyright 2002 Jukka Heinonen
6 * This library is free software; you can redistribute it and/or
7 * modify it under the terms of the GNU Lesser General Public
8 * License as published by the Free Software Foundation; either
9 * version 2.1 of the License, or (at your option) any later version.
11 * This library is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14 * Lesser General Public License for more details.
16 * You should have received a copy of the GNU Lesser General Public
17 * License along with this library; if not, write to the Free Software
18 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
22 #include "wine/winbase16.h"
24 #include "wine/debug.h"
26 WINE_DEFAULT_DEBUG_CHANNEL(int);
29 * EMS page size == 16 kilobytes.
31 #define EMS_PAGE_SIZE (16*1024)
34 * Linear address of EMS page.
36 #define EMS_PAGE_ADDRESS(base,page) (((char*)base) + EMS_PAGE_SIZE * page)
39 * Maximum number of pages that can be allocated using EMS.
41 #define EMS_MAX_PAGES 1024
44 * Maximum number of EMS handles (allocated blocks).
46 #define EMS_MAX_HANDLES 256
49 * Global EMM Import Record.
50 * Applications can get address of this record
51 * and directly access allocated memory if they use
54 * FIXME: Missing lots of fields, packing is not correct.
59 UCHAR hindex
; /* handle number */
60 BYTE flags
; /* bit 0: normal handle rather than system handle */
61 char name
[8]; /* handle name */
62 WORD pages
; /* allocated pages */
63 void *address
; /* physical address*/
64 } handle
[EMS_MAX_HANDLES
];
66 /* Wine specific fields... */
68 int used_pages
; /* Number of allocated pages. */
69 void *frame_address
; /* Address of 64k EMS page frame */
70 WORD frame_selector
; /* Segment of 64k EMS page frame */
73 UCHAR hindex
; /* handle number */
74 WORD logical_page
; /* logical page */
78 UCHAR hindex
; /* handle number */
79 WORD logical_page
; /* logical page */
80 } mapping_save_area
[EMS_MAX_HANDLES
][4];
84 /**********************************************************************
87 * Allocates and initialized page frame and EMS global import record.
89 static void EMS_init(void)
92 * Start of 64k EMS frame.
99 EMS_record
= HeapAlloc(GetProcessHeap(),
101 sizeof(*EMS_record
));
103 EMS_record
->frame_address
= (void *)base
;
104 EMS_record
->frame_selector
= base
>> 4;
107 /**********************************************************************
110 * Get handle and allocate memory.
112 static void EMS_alloc( CONTEXT86
*context
)
114 int hindex
= 1; /* handle zero is reserved for system */
116 while(hindex
< EMS_MAX_HANDLES
&& EMS_record
->handle
[hindex
].address
)
119 if(hindex
== EMS_MAX_HANDLES
) {
120 SET_AH( context
, 0x85 ); /* status: no more handles available */
122 int pages
= BX_reg(context
);
123 void *buffer
= HeapAlloc( GetProcessHeap(), 0, pages
* EMS_PAGE_SIZE
);
126 SET_AH( context
, 0x88 ); /* status: insufficient pages available */
128 EMS_record
->handle
[hindex
].address
= buffer
;
129 EMS_record
->handle
[hindex
].pages
= pages
;
130 EMS_record
->used_pages
+= pages
;
132 SET_DX( context
, hindex
); /* handle to allocated memory*/
133 SET_AH( context
, 0 ); /* status: ok */
138 /**********************************************************************
141 * Get/set handle name.
143 static void EMS_access_name( CONTEXT86
*context
)
146 int hindex
= DX_reg(context
);
147 if(hindex
< 0 || hindex
>= EMS_MAX_HANDLES
) {
148 SET_AH( context
, 0x83 ); /* invalid handle */
152 switch AL_reg(context
) {
153 case 0x00: /* get name */
154 ptr
= PTR_REAL_TO_LIN(context
->SegEs
, DI_reg(context
));
155 memcpy(ptr
, EMS_record
->handle
[hindex
].name
, 8);
156 SET_AH( context
, 0 );
159 case 0x01: /* set name */
160 ptr
= PTR_REAL_TO_LIN(context
->SegDs
, SI_reg(context
));
161 memcpy(EMS_record
->handle
[hindex
].name
, ptr
, 8);
162 SET_AH( context
, 0 );
166 INT_BARF(context
,0x67);
171 /**********************************************************************
174 * Map logical page into physical page.
176 static BYTE
EMS_map( WORD physical_page
, WORD new_hindex
, WORD new_logical_page
)
179 int old_logical_page
;
180 void *physical_address
;
182 if(physical_page
> 3)
183 return 0x8b; /* status: invalid physical page */
185 old_hindex
= EMS_record
->mapping
[physical_page
].hindex
;
186 old_logical_page
= EMS_record
->mapping
[physical_page
].logical_page
;
187 physical_address
= EMS_PAGE_ADDRESS(EMS_record
->frame_address
, physical_page
);
191 void *ptr
= EMS_PAGE_ADDRESS(EMS_record
->handle
[old_hindex
].address
,
193 memcpy(ptr
, physical_address
, EMS_PAGE_SIZE
);
197 if(new_hindex
&& new_logical_page
!= 0xffff) {
198 void *ptr
= EMS_PAGE_ADDRESS(EMS_record
->handle
[new_hindex
].address
,
201 if(new_hindex
>= EMS_MAX_HANDLES
|| !EMS_record
->handle
[new_hindex
].address
)
202 return 0x83; /* status: invalid handle */
204 if(new_logical_page
>= EMS_record
->handle
[new_hindex
].pages
)
205 return 0x8a; /* status: invalid logical page */
207 memcpy(physical_address
, ptr
, EMS_PAGE_SIZE
);
208 EMS_record
->mapping
[physical_page
].hindex
= new_hindex
;
209 EMS_record
->mapping
[physical_page
].logical_page
= new_logical_page
;
211 EMS_record
->mapping
[physical_page
].hindex
= 0;
212 EMS_record
->mapping
[physical_page
].logical_page
= 0;
215 return 0; /* status: ok */
218 /**********************************************************************
221 * Map multiple logical pages into physical pages.
223 static void EMS_map_multiple( CONTEXT86
*context
)
225 WORD
*ptr
= PTR_REAL_TO_LIN(context
->SegDs
, SI_reg(context
));
229 for(i
=0; i
<CX_reg(context
) && !status
; i
++, ptr
+= 2)
230 switch(AL_reg(context
)) {
232 status
= EMS_map( ptr
[1],
233 DX_reg(context
), ptr
[0] );
236 status
= EMS_map( (ptr
[1] - EMS_record
->frame_selector
) >> 10,
237 DX_reg(context
), ptr
[0] );
240 status
= 0x8f; /* status: undefined subfunction */
243 SET_AH( context
, status
);
246 /**********************************************************************
249 * Free memory and release handle.
251 static void EMS_free( CONTEXT86
*context
)
253 int hindex
= DX_reg(context
);
256 if(hindex
< 0 || hindex
>= EMS_MAX_HANDLES
) {
257 SET_AH( context
, 0x83 ); /* status: invalid handle */
261 if(!EMS_record
->handle
[hindex
].address
) {
262 SET_AH( context
, 0 ); /* status: ok */
266 EMS_record
->used_pages
-= EMS_record
->handle
[hindex
].pages
;
270 if(EMS_record
->mapping
[i
].hindex
== hindex
)
271 EMS_record
->mapping
[i
].hindex
= 0;
274 HeapFree( GetProcessHeap(), 0, EMS_record
->handle
[hindex
].address
);
275 EMS_record
->handle
[hindex
].address
= 0;
277 SET_AH( context
, 0 ); /* status: ok */
280 /**********************************************************************
283 * Save physical page mappings into handle specific save area.
285 static void EMS_save_context( CONTEXT86
*context
)
287 WORD h
= DX_reg(context
);
291 EMS_record
->mapping_save_area
[h
][i
].hindex
= EMS_record
->mapping
[i
].hindex
;
292 EMS_record
->mapping_save_area
[h
][i
].logical_page
= EMS_record
->mapping
[i
].logical_page
;
295 SET_AX( context
, 0 ); /* status: ok */
299 /**********************************************************************
300 * EMS_restore_context
302 * Restore physical page mappings from handle specific save area.
304 static void EMS_restore_context( CONTEXT86
*context
)
306 WORD handle
= DX_reg(context
);
310 int hindex
= EMS_record
->mapping_save_area
[handle
][i
].hindex
;
311 int logical_page
= EMS_record
->mapping_save_area
[handle
][i
].logical_page
;
313 if(EMS_map( i
, hindex
, logical_page
)) {
314 SET_AX( context
, 0x8e ); /* status: restore of mapping context failed */
319 SET_AX( context
, 0 ); /* status: ok */
322 /**********************************************************************
323 * DOSVM_Int67Handler (WINEDOS16.203)
325 * Handler for interrupt 67h EMS routines.
327 void WINAPI
DOSVM_Int67Handler( CONTEXT86
*context
)
329 switch AH_reg(context
) {
331 case 0x40: /* EMS - GET MANAGER STATUS */
332 SET_AH( context
, 0 ); /* status: ok */
335 case 0x41: /* EMS - GET PAGE FRAME SEGMENT */
337 SET_BX( context
, EMS_record
->frame_selector
); /* segment of page frame */
338 SET_AH( context
, 0 ); /* status: ok */
341 case 0x42: /* EMS - GET NUMBER OF PAGES */
343 /* unallocated 16k pages */
344 SET_BX( context
, EMS_MAX_PAGES
- EMS_record
->used_pages
);
345 /* total number of 16k pages */
346 SET_DX( context
, EMS_MAX_PAGES
);
348 SET_AH( context
, 0 );
351 case 0x43: /* EMS - GET HANDLE AND ALLOCATE MEMORY */
356 case 0x44: /* EMS - MAP MEMORY */
358 SET_AH( context
, EMS_map( AL_reg(context
), DX_reg(context
), BX_reg(context
) ) );
361 case 0x45: /* EMS - RELEASE HANDLE AND MEMORY */
366 case 0x46: /* EMS - GET EMM VERSION */
367 SET_AL( context
, 0x40 ); /* version 4.0 */
368 SET_AH( context
, 0 ); /* status: ok */
371 case 0x47: /* EMS - SAVE MAPPING CONTEXT */
373 EMS_save_context(context
);
376 case 0x48: /* EMS - RESTORE MAPPING CONTEXT */
378 EMS_restore_context(context
);
381 case 0x49: /* EMS - reserved - GET I/O PORT ADDRESSES */
382 case 0x4a: /* EMS - reserved - GET TRANSLATION ARRAY */
383 INT_BARF(context
,0x67);
386 case 0x4b: /* EMS - GET NUMBER OF EMM HANDLES */
387 SET_BX( context
, EMS_MAX_HANDLES
); /* EMM handles */
388 SET_AH( context
, 0 ); /* status: ok */
391 case 0x4c: /* EMS - GET PAGES OWNED BY HANDLE */
392 case 0x4d: /* EMS - GET PAGES FOR ALL HANDLES */
393 case 0x4e: /* EMS - GET OR SET PAGE MAP */
394 case 0x4f: /* EMS 4.0 - GET/SET PARTIAL PAGE MAP */
395 INT_BARF(context
,0x67);
398 case 0x50: /* EMS 4.0 - MAP/UNMAP MULTIPLE HANDLE PAGES */
400 EMS_map_multiple(context
);
403 case 0x51: /* EMS 4.0 - REALLOCATE PAGES */
404 case 0x52: /* EMS 4.0 - GET/SET HANDLE ATTRIBUTES */
405 INT_BARF(context
,0x67);
408 case 0x53: /* EMS 4.0 - GET/SET HANDLE NAME */
410 EMS_access_name(context
);
413 case 0x54: /* EMS 4.0 - GET HANDLE DIRECTORY */
414 case 0x55: /* EMS 4.0 - ALTER PAGE MAP AND JUMP */
415 case 0x56: /* EMS 4.0 - ALTER PAGE MAP AND CALL */
416 case 0x57: /* EMS 4.0 - MOVE/EXCHANGE MEMORY REGION */
417 case 0x58: /* EMS 4.0 - GET MAPPABLE PHYSICAL ADDRESS ARRAY */
418 INT_BARF(context
,0x67);
421 case 0x59: /* EMS 4.0 - GET EXPANDED MEMORY HARDWARE INFORMATION */
422 if(AL_reg(context
) == 0x01) {
424 /* unallocated raw pages */
425 SET_BX( context
, EMS_MAX_PAGES
- EMS_record
->used_pages
);
426 /* total number raw pages */
427 SET_DX( context
, EMS_MAX_PAGES
);
429 SET_AH( context
, 0 );
431 INT_BARF(context
,0x67);
434 case 0x5a: /* EMS 4.0 - ALLOCATE STANDARD/RAW PAGES */
435 case 0x5b: /* EMS 4.0 - ALTERNATE MAP REGISTER SET */
436 case 0x5c: /* EMS 4.0 - PREPARE EXPANDED MEMORY HARDWARE FOR WARM BOOT */
437 case 0x5d: /* EMS 4.0 - ENABLE/DISABLE OS FUNCTION SET FUNCTIONS */
438 INT_BARF(context
,0x67);
441 case 0xde: /* Virtual Control Program Interface (VCPI) */
442 if(AL_reg(context
) == 0x00) {
444 * VCPI INSTALLATION CHECK
445 * (AH_reg() != 0) means VCPI is not present
447 TRACE("- VCPI installation check\n");
450 INT_BARF(context
,0x67);
454 INT_BARF(context
,0x67);
459 /**********************************************************************
462 * Handler for interrupt 21h IOCTL routine for device "EMMXXXX0".
464 void WINAPI
EMS_Ioctl_Handler( CONTEXT86
*context
)
466 assert(AH_reg(context
) == 0x44);
468 switch AL_reg(context
) {
469 case 0x00: /* IOCTL - GET DEVICE INFORMATION */
470 RESET_CFLAG(context
); /* operation was successful */
471 SET_DX( context
, 0x4080 ); /* bit 14 (support ioctl read) and
472 * bit 7 (is_device) */
475 case 0x02: /* EMS - GET MEMORY MANAGER INFORMATION */
477 * This is what is called "Windows Global EMM Import Specification".
478 * Undocumented of course! Supports three requests:
479 * GET API ENTRY POINT
480 * GET EMM IMPORT STRUCTURE ADDRESS
481 * GET MEMORY MANAGER VERSION
483 INT_BARF(context
,0x21);
486 case 0x07: /* IOCTL - GET OUTPUT STATUS */
487 RESET_CFLAG(context
); /* operation was successful */
488 SET_AL( context
, 0xff ); /* device is ready */
492 INT_BARF(context
,0x21);